第一作者兼通讯作者，我国学者发表Science论文，揭示我国城市空气污染的独特化学机制

Core Viewpoint - Air pollution is a global environmental issue with significant impacts on air quality, climate, ecosystems, and human health. China's severe smog pollution, characterized by high PM2.5 concentrations, has shown improvement since 2013 due to regulatory measures [2][3]. Group 1 - The unique formation mechanism of smog in China involves both high-intensity primary pollutant emissions and efficient secondary transformation processes [2][3]. - The current stage in China is marked by a mix of agricultural and industrial societies, leading to high emissions of secondary aerosol precursors from various sources, including ammonia from agricultural activities and nitrogen oxides from industrial activities [3][4]. - A recent review published in the journal Science highlights the complex interactions of multiple atmospheric factors contributing to the unique formation mechanism of secondary organic aerosols (SOA) in urban China [4][10]. Group 2 - Despite significant progress in environmental pollution control over the past decade, uncertainties remain regarding the precursors, formation processes, and impacts of SOA on radiation budgets and human health in Chinese cities [6][9]. - The substantial decrease in PM2.5 concentrations in urban China has led to a significant increase in ground-level ozone concentrations, which facilitates SOA formation [6][9]. - Understanding the sensitivity of ozone-nitrogen oxides-volatile organic compounds in urban areas is crucial for developing economically effective strategies to control precursors that lead to high concentrations of both SOA and ozone [6][9]. Group 3 - The study identifies that high atmospheric oxidation capacity in winter results from various factors, including high concentrations of gas-phase nitrous acid photolysis and nitrogen oxides participating in olefin ozonolysis [7][9]. - The increase in nitrate proportions has also enhanced the liquid water content of aerosols, further promoting the generation of liquid-phase SOA [7][9]. - Future research should focus on exploring unknown oxidation pathways, characterizing precursors and multi-generation oxidation products at the molecular level, and understanding the corresponding generation and aging mechanisms [7][9]. Group 4 - The paper summarizes the scientific status of SOA formation in urban China, emphasizing the dominant role of anthropogenic precursors, the main mechanisms of SOA formation, and the importance of multi-pollutant and multiphase processes in SOA evolution [9][10]. - This research deepens the understanding of the formation mechanisms of haze pollution in China and provides a reference for global atmospheric pollution studies, offering important scientific basis for future air pollution control and policy-making [10].